- •А.А. Атрошкина, к.Ф. Варламова,
- •Contents предисловие 4
- •Предисловие
- •Lesson 1. Energy
- •Active Vocabulary
- •I . Practise reading the words written below. You’ll come across them in text 1 a.
- •II. Put the words from the box into the correct columns below. Translate them into Russian.
- •III. Read text 1 a. Try to understand its content. Text 1 a. Energy
- •Post-Text Exercises
- •IV. Find the word with the similar meaning, according to the idea of text 1 a.
- •V. Connections: match a line in a with a line in b.
- •VI. Read and translate word combinations consisting of two or more components. See model. Read and translate the sentences from the text containing these word combinations.
- •VII. Answer the following questions.
- •VIII. Are the sentences True or False? Correct the false sentences.
- •Grammar Exercises (The Tenses: Active and Passive Voice. See appendix, gr. Ref., p. 97-99)
- •X. Find the correct sentences. Underline the predicates. Trans-late the sentences into Russian.
- •XI. Choose the correct tense form. Translate sentences into Russian, pay attention to the meaning of the word “time”.
- •XII. Put the verbs in brackets into the correct tense and voice.
- •XIII. Find active and passive forms of the verb in text 1 a. Write them out into two columns.
- •XIV. Read text 1 b. Find the answers in text 1 b to the following questions:
- •Text 1 b. Generators
- •XV. Make the plan of the given text.
- •XVI. Discuss the main points of your plan with a partner.
- •XVII. Skim over text 1c (See appendix, lang. Learn. Focus, p. 117). Give a better title for this text and prove your point of view. Text 1 c. Batteries
- •Lesson 2. Atomic energy
- •Active Vocabulary
- •I . Practise reading the words written below. You’ll come across them in text 2 a.
- •II. Put the words from the box into the correct columns below. Translate them into Russian.
- •III. Read text 2 a. Try to understand its content. Text 2 a. Atomic Energy
- •Post- Text Exercises
- •IV. Find the word with the similar meaning, according to the idea of text 2 a.
- •V. Connections: match a line in a with a line in b.
- •XI. Read the following sentences. Find the sentences in which the modal verb ‘must’ expresses supposition. Translate them into Russian.
- •XII. Find the sentences with modal verbs in text 2 a (passages 2 and 3). Change these modal verbs to their equivalents. Translate the sentences into Russian.
- •XIII. Fill in blanks with the appropriate modal verb or its equivalent. Mind the tense.
- •XIV. A. Read the conversation. Choose the correct modal verb.
- •XV. Read text 2 b. Find the answers in text 2 b to the following questions:
- •Text 2 b. The Law of Energy Conservation
- •XVI. Read text 2 b using some more information about well known more physicists mentioned in the text.
- •1895 World War II 1913 1896 1931 1896-1912 1898 1946 1922 text 2 c. History of Radiography: X-rays, Gamma Rays
- •Gamma rays
- •Lesson 3. Electricity
- •Active Vocabulary
- •I. Practise reading the words written below. You’ll come across them in text 3a.
- •II. Put the words from the box into the correct columns. Translate them into Russian.
- •III. Read text 3a. Try to understand its content. Text 3 a. Electricity
- •IV. Find the word with the similar meaning, according to the idea of text 3 a.
- •Post-Text Exercises
- •V. Connections: match a line in a with a line in b.
- •VI. Match paragraphs with the appropriate summary.
- •VII. Answer the following questions.
- •VIII. Translate the parts of the sentences. Complete these sentences.
- •IX. Give a short report on the topic “The discovery of electricity and its usage today”. (Use text 3a).
- •X. Find the correct sentences. Underline the participles. Translate these sentences into Russian.
- •XII. Find the participles (passage 3) in text 3 a. Define the functions of the participles.
- •XIII. Translate the following sentences into Russian, pay attention to the Absolute Participle Construction. Underline “the doer” in the construction.
- •XIV. Form one sentence of each pair of sentences using the Absolute Participle Construction.
- •XV. Read text 3 b. Find the answers in text 3 b to the following questions:
- •Text 3 b. Transformers
- •XVI. Complete the sentences using the correct variant.
- •XVII. Make a short summary of the text (See appendix, lang. Learn. Focus, p.117-118).
- •XVIII. Read text 3 c.Describe the process of electric current flow in a vacuum in your own words. Text 3 c. Electric Current In a Vacuum
- •Lesson 4. Power transmission
- •Active Vocabulary
- •I. Practise reading the words written below. You’ll come across them in text 4 a.
- •II. Put the words from the box into the correct columns. Translate them into Russian.
- •III. Read text 4 a. Try to understand its content. Text 4 a. Power Transmission
- •Post-Text Exercises
- •IV. Find the word with the similar meaning according to the idea of text 4 a.
- •V. Connections: match a line in a with a line in b.
- •VI. Match each paragraph with the appropriate summary:
- •VII. Answer the following questions.
- •VIII. Translate the parts of the sentences. Complete these senten-ces.
- •X. Underline the gerund and define the forms of it in the examples given below. Translate the sentences into Russian.
- •XI. Put the verbs in brackets into the correct forms of the gerund. Define the functions of the gerund. Translate the sentences into Russian.
- •XII. Find the gerund (paragraph 3) in text 4 a. Define the functions of the gerund.
- •XIII. Translate the following sentences into Russian, pay attention to the Gerundial Complex.
- •XIV. Use Participle I, Participle II or the Gerund of the verbs in brackets and translate the sentences.
- •XV. Translate the following sentences and define the non-finite forms of the verb.
- •XVI. Read text 4 b. Find the answers in text 4 b to the following questions:
- •Text 4 b. Electric Power Consumers and Power Systems
- •XVII. Complete the sentences using correct variant.
- •XVIII. Describe a power system and its operation.
- •XIX. Read text 4 c. Find in it the answer to the question that follows it. Text 4 c. Electric Power Interruptions
- •Lesson 5. Electronics
- •Active Vocabulary
- •I. Practise reading the words written below. You’ll come across them in text 5 a.
- •II. Put the words from the box into the correct columns below. Translate them into Russian.
- •III. Read text 5 a. Try to understand its content. Text 5 a. Electronic Elements
- •Post-Text Exercises
- •IV. Find the word with the similar meaning according to the idea of text 5a.
- •V. Connections: match a line in a with a line in b.
- •VI. Find in the text the Russian equivalents of the following words and word combinations:
- •VII. Read and translate word combinations consisting of two or more components. See model. Read and translate the sentences from the text containing these word combinations.
- •VIII. Answer the following questions:
- •IX. Read the definitions below and guess what word is defined in each case.
- •X. Use the verb in parentheses in the correct form with the appropriate preposition. Translate the sentences into Russian.
- •XI. Fill in the gaps in the sentences using the correct form of the word in parentheses:
- •XII. Look through text 5 a again. Give main points of each passage. Use “is / are about …”. See Model. Make an annotation of the text (See appendix, lang. Learn. Focus, p.118)
- •XVI. What forms of the Infinitives are used in the Infinitive Complexes given below – Complex Subject or Complex Object?
- •XVII. Translate the following sentences from Russian into English using the phrases from ex. 1.
- •XVIII. Read text 5 Band fill in the gaps with the words, in the box. Try to guess the meaning of the words from the context.
- •Text 5 b. Electronic Devices
- •XIX. Choose one of the titles to best match the text.
- •Lesson 6. Electronic devices: amplifiers, diodes, oscillators
- •Active Vocabulary
- •I. Practise reading the words written below. You’ll come across them in text 6 a.
- •II. Put the words from the box into the correct columns below. Translate them into Russian.
- •III. Read text 6 a. Try to understand its content. Text 6 a. Amplifiers
- •Post-Text Exercises
- •IV. Find the word with the similar meaning according to the idea of text 6a.
- •V. Complete the following. Use the words in the box to help you.
- •XVI. Fill in the correct word from the list below.
- •XVII. Discuss the main points of the text. Use this plan.
- •XVIII. Read text 6 c and complete these sentences using ideas from the text.
- •Text 6 c. Requirements For Oscillators
- •Additional reading the world of the atom
- •Natural radioactivity
- •How long does the radioactivity last?
- •Plants and the atom
- •Animals and the atom
- •Telemeters in the atomic laboratory
- •Atomic power for rockets
- •Atomic power for space travel
- •The first russian woman-scientist (1850 —1891)
- •James clerk maxwell (1831–1879)
- •The use of electromagnetic waves
- •A great invention of a russian scientist
- •Astronomy and radio
- •How can the efficiency of utilisation of solar energy be improved?
- •Solar energy
- •Electronics and technical progress
- •Mysterious devices or not
- •Lasers help science and industry
- •Atomic clock puzzles scientists
- •Development of robots
- •Electric fish
- •Machines aren’t free of errors
- •Automation and mechanization
- •Appendix
- •Страдательный залог – Passive Voice
- •Lesson 2 Модальные глаголы и их эквиваленты – Model Verbs and Their Equivalents
- •Lesson 3
- •Формы причастия I
- •ПричастиеI переводится на русский язык
- •Функции причастия I
- •Причастие II Образование и формы причастия II
- •ПричастиеIi переводится на русский язык
- •Функции причастия II
- •Независимый причастный оборот (нпо)
- •Нпо переводится на русский язык:
- •Lesson 4
- •Формы герундия
- •Функции герундия. Способы его перевода
- •Герундиальный оборот
- •Lesson 5
- •Инфинитив
- •Формы инфинитива
- •Функции инфинитива. Способы его перевода.
- •Инфинитивный оборот
- •Инфинитив как часть сложного дополнения
- •Инфинитив в конструкции сложное дополнение употребляется:
- •Инфинитив как часть сложного подлежащего
- •Lesson 6 Простое предложение
- •Порядок слов в простом повествовательном предложении. Утвердительная форма
- •Отрицание в простом повествовательном предложении
- •Порядок слов в вопросительном предложении
- •1. Альтернативные и общие вопросы
- •2. Специальные вопросы
- •Построение специальных вопросов с предлогами
- •I вариант
- •II вариант
- •Irregular verbs
- •Language learning focus skimming
- •Writing a summary
- •Make sure you understand all the main points. Go through the article and underline the relevant information in each paragraph.
- •Writing an annotation
- •Библиографический список
- •Energy and electronics
- •654007, Г. Новокузнецк, ул. Кирова, 42
XIII. Find active and passive forms of the verb in text 1 a. Write them out into two columns.
|
Active Voice |
Passive Voice |
|
has been transmitting … … |
… was installed … |
XIV. Read text 1 b. Find the answers in text 1 b to the following questions:
When was the early generator discovered?
How did the generator look like?
To what did the production of practical electromagnets lead?
What types of dynamos are known to you?
How do they differ from each other?
What are the major parts of generators and alternators?
Why do the rotors in large machines rotate at a high speed?
Text 1 b. Generators
Within a year of Michael Faraday’s discovery of electromagnetic induction (1831), a small hand generator was demonstrated in Paris, and by 1850 generators were being manufactured in several countries. These early generators were little more than assemblies of coils and permanent magnets that could be maintained in relative motion. Further developments of significance did not appear until the experimental work of William Sturgeon of England and of Joseph Henry and Thomas Davenport of the United States led to the manufacture of practical electromagnets. This technological advance contributed much to the development of practical electrical machines.
The dynamo-electric machines turn mechanical energy directly into electrical energy with a loss of only a few percent. There are two types of dynamos, namely, the generator and the alternator. The former supplies direct current (d. c.) which is similar to the current from a battery and the latter, as its name implies provides alternating current (a. c.).
To generate electricity both of them must be continuously provided with energy from some outside source of mechanical energy such as steam engines, steam turbines or water turbines, for instance.
Both generators and alternators consist of the following principle parts: an armature and an electromagnet. The electromagnet of a d. c. generator is usually called a stator for it is in static condition while the armature (the rotor) is rotating. Alternators may be divided into two types: (1) alternators that have a stationary armature and a rotating electro-magnet; (2) alternators whose armature serves as a rotor but this is seldom done. In order to get a strong electromotive force (e. m. f.), the rotors in large machines rotate at a speed of thousands of revolutions per minute. The faster they rotate, the greater the output voltage the machine will produce.
In order to produce electricity under the most economical conditions, the generators must be as large as possible. In addition to it, they should be kept as fully loaded as possible all the time.
XV. Make the plan of the given text.
XVI. Discuss the main points of your plan with a partner.
XVII. Skim over text 1c (See appendix, lang. Learn. Focus, p. 117). Give a better title for this text and prove your point of view. Text 1 c. Batteries
A battery is a simple device that converts chemical energy directly to electrical energy. It consists of two or more galvanic, or electrochemical, cells that produce direct-current electricity. The term battery is also commonly applied to a single galvanic cell. Every battery (or cell) has a cathode, or positive electrode, and an anode, or negative electrode. These electrodes must be separated by and are often immersed in an electrolyte that permits the passage of ions between the electrodes. The electrodes materials and electrolyte are chosen and arranged so that sufficient electromotive force (voltage) and electric current (amperes) can be developed between the terminals of a battery to operate lights, machines, or other devices. Since an electrode contains only a limited numbers of units of chemical energy convertible to electrical energy, it follows that a battery of a given size has a certain capacity to operate devices and will eventually become exhausted. The active parts of a battery are usually encased in a box (or jacket) and cover system that keeps air outside and the electrolyte solvent inside and that provides a structure for the assembly.
The first battery appears to have been constructed about 1800 by Alessandro Volta, a professor of natural philosophy at the University of Pavia in Italy. This device, later known as the voltaic pile, was composed of a series of silver and zinc disks in pairs, each of which was separated with a sheet of pasteboard saturated in salt water. A current was produced when the uppermost disk of silver was connected by a wire to the bottom disk of zinc. In 1836 the English chemist John Daniell developed what is considered the classic form of the voltaic cell.
Batteries are divided into two general groups: (1) primary batteries and (2) secondary, or storage, batteries. Primary batteries are designed to be used until the voltage is too low to operate a given device (flashlights, certain transistorized portable radios, electric razors, etc.) and then discarded. Secondary batteries consist of an assemblage of several identical voltaic cells. The lead-acid type of a secondary battery serves as the power source for the electrical systems of many kinds of motor vehicles, particularly automobiles and trucks.